SEARCH

SEARCH BY CITATION

References

  • Adler, P. B.. 2004. Neutral models fail to reproduce observed species-area and species-time relationships in Kansas grasslands. Ecology 85: 12651272.
  • Bell, G.. 2000. The distribution of abundance in neutral communities. Am. Nat. 155: 606617.
  • Bell, G.. 2001. Neutral macroecology. Science 293: 24132418.
  • Bell, G.. 2003. The interpretation of biological surveys. Proc. R. Soc. B 270: 25312542.
  • Bell, G.. 2005. The co-distribution of species in relation to the neutral theory of community ecology. Ecology 86: 17571770.
  • Caswell, H.. 1976. Community structure: a neutral model analysis. Ecol. Monogr. 46: 327354.
  • Caswell, H.. 1988. Theory and models in ecology: a different perspective. Ecol. Modell. 43: 3344.
  • Chase, J. M.. 2005. Towards a really unified theory for metacommunities. Funct. Ecol. 19: 182186.
  • Chase, J. M. and Leibold, M. A.. 2003. Ecological niches: Linking classical and contemporary approaches. Univ. of Chicago Press.
  • Chave, J.. 2004. Neutral theory and community ecology. Ecol. Lett. 7: 241253.
  • Colwell, R. K. and Winkler, D. W.. 1984. A null model for null models in biogeography. – In: Strong, D. R. et al (eds), Ecological communities: conceptual issues and the evidence. Princeton Univ. Press, pp. 344359.
  • Colwell, R. K. and Lees, D. C.. 2000. The mid-domain effect: geometric constraints on the geography of species richness. Trends Ecol. Evol. 15: 7076.
  • Colwell, R. K. et al. 2004. The mid-domain effect and species richness patterns: what have we learned so far?. Am. Nat. 163: E1E23.
  • Colwell, R. K. et al. 2005. The mid-domain effect: there's a baby in the bathwater. Am. Nat. 166: E149E154.
  • Connolly, S. R.. 2005. Process-based models of species distributions and the mid-domain effect. Am. Nat. 166: 111.
  • Connor, E. F. and Simberloff, D.. 1979. The assembly of species communities: chance or competition?. Ecology 60: 11321140.
  • Cornell, H. V. and Lawton, J. H.. 1992. Species interactions, local and regional processes, and limits to the richness of ecological communities – a theoretical perspective. J. Anim. Ecol. 61: 112.
  • Diamond, J. M.. 1975. Assembly of species communities. – In: Cody, M. L. and Diamond, J. M. (eds), Ecology and evolution of communities. Harvard Univ. Press, pp. 342444.
  • Dolman, A. M. and Blackburn, T. M. 2004. A comparison of random draw and locally neutral models for the avifauna of an English woodland. – BMC Ecol. http://www.biomedcentral.com/1472-6785/4/8>.
  • Ebeling, A. W. et al. 1990. Temporally concordant structure of a fish assemblage: bound or determined?. Am. Nat. 135: 6373.
  • Enquist, B. J. et al. 2002. Modeling macroscopic patterns in ecology. Science 295: 18351837.
  • Fisher, R. A.. 1930. The genetical theory of natural selection. Clarendon.
  • Gaston, K. J. and Chown, S. L.. 2005. Neutrality and the niche. Funct. Ecol. 19: 16.
  • Gotelli, N. J.. 2000. Null model analysis of species co-occurrence patterns. Ecology 81: 26062621.
  • Gotelli, N. J.. 2001. Research frontiers in null model analysis. Global Ecol. Biogeogr. 10: 337343.
  • Gotelli, N. J. and Graves, G. R.. 1996. Null models in ecology. Smithsonian Inst. Press.
  • Gotelli, N. J. and Ellison, A. M.. 2002. Assembly rules for New England ant assemblages. Oikos 99: 591599.
  • Gotelli, N. J. and Entsminger, G. L. 2002. EcoSim: null models software for ecology. Ver. 7.0. – Acquired Intelligence. and Kesey-Bear, <http://www.garyentsminger.com/ecosim/ecosim.htm>.
  • Gotelli, N. J. and McCabe, D. J.. 2002. Species co-occurrence: a meta-analysis of J.M. Diamond's assembly rules model. Ecology 83: 20912096.
  • Gotelli, N. J. and Rohde, K. R.. 2002. Co-occurrence of ectoparasites of marine fishes: a null model analysis. Ecol. Lett. 5: 8694.
  • Gotelli, N. J. and Ellison, A. M.. 2004. A primer of ecological statistics. Sinauer.
  • Graves, G. R. and Gotelli, N. J.. 1983. Neotropical land-bridge avifaunas: new approaches to null hypotheses in biogeography. Oikos 41: 322333.
  • Graves, G. R. and Rahbek, C.. 2005. Source pool geometry and the assembly of continental avifaunas. Proc. Nat. Acad. Sci. USA 102: 78717876.
  • Grossman, G. D. et al. 1982. Stochasticity in structural and functional characteristics of an Indiana stream fish assemblage: a test of community theory. Am. Nat. 120: 423454.
  • Harte, J.. 2003. Tail of death and resurrection. Nature 424: 10061007.
  • Hawkins, B. A. et al. 2005. The mid- domain domain effect and diversity gradients: is there anything to learn?. Am. Nat. 166: E140E143.
  • Holterhoff, P. F.. 1996. Crinoid biofacies in Upper Carboniferous cyclothems, midcontinent North America: faunal tracking and the role of regional processes in biofacies recurrence. Paleobiology 127: 4781.
  • Hubbell, S. P.. 2001. A unified theory of biodiversity and biogeography. Princeton Univ. Press.
  • Jetz, W. and Rahbek, C.. 2002. Geographic range size and determinants of avian species richness. Science 297: 15481551.
  • Kimura, M.. 1983. The neutral theory of molecular evolution. Cambridge Univ. Press.
  • MacArthur, R. H.. 1972. Geographical ecology. Harper and Row.
  • McDonald, J. H. and Kreitman, M.. 1991. Adaptive protein evolution at Adh locus in Drosophia. Nature 351: 652654.
  • McGill, B.. 2003a. Strong and weak tests of macroecological theory. Oikos 102: 679685.
  • McGill, B. J.. 2003b. A test of the unified neutral theory of biodiversity. Nature 422: 881885.
  • McGill, B. J.. 2003c. Does Mother Nature really prefer rare species or are log-left-skewed SADs a sampling artefact?. Ecol. Lett. 6: 766773.
  • McGill, B. J. et al. 2005. Community inertia of Quaternary small mammal assemblages in North America. Proc. Nat. Acad. Sci. USA 102: 1670116706.
  • McGill, B. J. et al. 2006. Empirical evaluation of the neutral theory. – Ecology, in press.
  • McPeek, M. and Gomulkiewicz, R.. 2005. Assembling and depleting species richness in metacommunities: insights from ecology, population genetics, and macroevolution. – In: Holyoak, M. et al (eds), Metacommunities: spatial dynamics and ecological communities. Univ. of Chicago Press, pp. 355373.
  • Morand, S. et al. 1999. Aggregation and species coexistence of marine fishes. Int. J. Parasitol. 29: 663672.
  • Nitecki, M. H. and Hoffmann, A. (eds) 1987. Neutral models in biology. – Oxford Univ. Press.
  • Peres-Neto, P. R. et al. 2001. Environmentally constrained null models: site suitability as occupancy criterion. Oikos 93: 110120.
  • Poulin, R.. 2004. Parasites and the neutral theory of biodiversity. Ecography 27: 119123.
  • Rangel, T. F. L. V. B. and Diniz-Filho, J. A. F.. 2005a. Neutral community dynamics, the mid-domain effect and spatial patterns in species richness. Ecol. Lett. 8: 783790.
  • Rangel, T. F. L. B. and Diniz-Filho, J. A. F.. 2005b. An evolutionary tolerance model explaining spatial patterns in species richness under environmental gradients and geometric constraints. Ecograhy 28: 253263.
  • Ricklefs, R. E.. 2003. A comment on Hubbell's zero-sum ecological drift model. Oikos 100: 185192.
  • Root, R. B.. 1967. The niche exploitation pattern of the blue-gray gnatcatcher. Ecol. Monogr. 37: 95124.
  • Roxburgh, S. H. and Chesson, P.. 1998. A new method for detecting species associations with spatially autocorrelated data. Ecology 79: 21802192.
  • Roxburgh, S. H. and Matsuki, M.. 1999. The statistical validation of null models used in spatial association analysis. Oikos 85: 6878.
  • Schluter, D.. 1984. A variance test for detecting species associations, with some example applications. Ecology 65: 9981005.
  • Stone, L. and Roberts, A.. 1990. The checkerboard score and species distributions. Oecologia 85: 7479.
  • Tilman, D.. 2004. Niche tradeoffs, neutrality, and community structure: A stochastic theory of resource competition, invasion, and community assembly. Proc. Nat. Acad. Sci. USA 101: 1085410861.
  • Ulrich, W.. 2004. Species co-occurrences and neutral models: reassessing J.M. Diamond's assembly rules. Oikos 107: 603609.
  • Winemiller, K. O. and Pianka, E. R.. 1990. Organization in natural assemblages of desert lizards and tropical fishes. Ecol. Monogr. 60: 2755.
  • Wootton, J. T.. 2005. Field parameterization and experimental test of the neutral theory of biodiversity. Nature 433: 309312.
  • Wright, S.. 1931. Evolution in Mendelian populations. Genetics 16: 97159.